General quantum algorithms for Hamiltonian simulation with applications to a non-Abelian lattice gauge theory

Davoudi, Zohreh; Shaw, Alexander F.; Stryker, Jesse R.

doi:10.22331/q-2023-12-20-1213

Quantum

2023

DOI: 10.22331/q-2023-12-20-1213

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General quantum algorithms for Hamiltonian simulation with applications to a non-Abelian lattice gauge theory

Zohreh Davoudi,

Alexander F. Shaw,

Jesse R. Stryker

Abstract: With a focus on universal quantum computing for quantum simulation, and through the example of lattice gauge theories, we introduce rather general quantum algorithms that can efficiently simulate certain classes of interactions consisting of correlated changes in multiple (bosonic and fermionic) quantum numbers with non-trivial functional coefficients. In particular, we analyze diagonalization of Hamiltonian terms using a singular-value decomposition technique, and discuss how the achieved diagonal unitaries i… Show more

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2024

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Cited by 14 publications

References 163 publications

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From square plaquettes to triamond lattices for SU(2) gauge theory

Kavaki,

Lewis

2024

Commun Phys

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Lattice gauge theory should be able to address significant new scientific questions when implemented on quantum computers. In practice, error-mitigation techniques have already allowed encouraging progress on small lattices. In this work we focus on a truncated version of SU(2) gauge theory, which is a familiar non-Abelian step toward quantum chromodynamics. First, we demonstrate effective error mitigation for imaginary time evolution on a lattice having two square plaquettes, obtaining the ground state using an IBM quantum computer and observing that this would have been impossible without error mitigation. Then we propose the triamond lattice as an expedient approach to lattice gauge theories in three spatial dimensions and we derive the Hamiltonian. Finally, error-mitigated imaginary time evolution is applied to the three-dimensional triamond unit cell, and its ground state is obtained from an IBM quantum computer. Future work will want to relax the truncation on the gauge fields, and the triamond lattice is increasingly valuable for such studies.

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From square plaquettes to triamond lattices for SU(2) gauge theory

Kavaki,

Lewis

2024

Commun Phys

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Continuous-variable quantum computation of the O(3) model in 1+1 dimensions

Jha,

Ringer,

Siopsis

et al. 2024

Phys. Rev. A

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Primitive quantum gates for an SU(2) discrete subgroup: Binary octahedral

Gustafson,

Lamm,

Lovelace

2024

Phys. Rev. D

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We construct a primitive gate set for the digital quantum simulation of the 48-element binary octahedral (BO) group. This non-Abelian discrete group better approximates SU(2) lattice gauge theory than previous work on the binary tetrahedral group at the cost of one additional qubit—for a total of six—per gauge link. The necessary primitives are the inversion gate, the group multiplication gate, the trace gate, and the BO Fourier transform. Published by the American Physical Society 2024

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General quantum algorithms for Hamiltonian simulation with applications to a non-Abelian lattice gauge theory

Cited by 14 publications

References 163 publications

From square plaquettes to triamond lattices for SU(2) gauge theory

From square plaquettes to triamond lattices for SU(2) gauge theory

Continuous-variable quantum computation of the O(3) model in 1+1 dimensions

Primitive quantum gates for an SU(2) discrete subgroup: Binary octahedral

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